Slipper bearing



Dec. 22, 1942.` H. c. IRVIN SLI'PPER BEARING lFiled sept. 29, i941 2 sheets-sheet 1 Dec. 22, 1942. H. c. IRvlN 2,305,702

` SLIFPER BEARING Filed Sept. 29, 1941 2 Sheets-Sheet 2 Pnenied Dec. z2, 1942 UNITED STATES lPATEN'I OFFICE SLPPEB BEARING Harry v(l. Irvin, Detroit, Mich., assignor to The American Brake Shoe' and Foundry Company, Wilmington, Del., a corporation of Delaware Application September 29, 1941, Serial No. 412,740

, 1o claims. (orsi- 1) female member which mate with the slipper 'I'his invention relates to bearings and particularly to slipper bearings for universal couplings and the like. I

The rotative transmission of mechanical power includes many instances in which torque is irnparted from a driving shaft to an independently supported shaft and under such circumstances the independence. of support` or the need-,for relative adjustment of one or the other of tlie shafts often results in misalignment of the two\shafts. Where. such a condition is to be met it isgnecessary to interconnect the shafts by universal couplings or the like to provide for a continuous driving connection between the shafts despite the existence of such an angular relation therebetween. One conventional '4 form of -universal coupling that has been widely used for the transmission of relatively heavy loads cooperating male and female members are respectively formed on or secured to the adjacent ends of the shafts, the male member including a fiat tongue or ilshtail which is inserted into a bifurcation ailord'ed in a female member, The branches of the bifurcated female member are arcuately recessed transversely thereof and such recesses are located so asto be disposed in opposing relation'tov the opposite side faces of the tongue when the-tongue is inserted into the bifurcation, `thereby to define a pair of opposed semi-cylindrical pockets located on opposite sides of the tongue; Each of the aforesaid pockets or recesses servesto receive a slipper bearing,

and such bearing has a convex surface that con-` forms to the configuration of the recess and also a fiat face that conforms'to an adjacent face of the aforesaid tongue, and a bearing pin which passes through la suitable'opening in the tongue serves to maintain such slipper bearings in spaced relation. `Where the shafts are rotated under circumstances where they are not in axial alignment, the angular relation of the tongue and female member vchanges constantly whereupon the slipper-bearings rock within the recesses in the female member and the tongue pivots about the bearingpin whereby twc angularly related axes arev afforded about which the `associated `shafts may pivot-in the course of such rotation. A f

Intermediate the` ends of such slipper bearings it is customary to provide a boss which has an opening thereinwhich serves as a socket to;re

of the bearing. Correspondingly, the porticns'of therecesses or arcuate bearing portions oftheV bearings are more deeply recessed at the medial parts thereof than are the remaining parts thereof to thereby' form an arcuate groove which accommodates the thickened boss when the end portions of the bearings are in bearing contact with the endv portions of the recesses.

In the operation of universal couplings of the aforesaid character it has been found that the major portion of the wear attendant to operation of the coupling occurs at or near the end portions of the slipper bearings and the parts of the female member with which such end portions cooperate, the amount of wear becoming progressively greater toward the outer edges of the coupling. Where the female portions are-wom as aforesaid and it` becomes necessary to replace one slipper bearing with another, there are instances where, until the new slipper ybearing wears down so as to conform to the wom portions of the female member, the slipper bearing will be subjected to appreciable stresses and strains.

The wear of the female bearing portion of .the coupling may vary considerablyin various cou- 'pling installations, and when a slipper bearing is placed in an operative relation in a worn coupling, the application of driving torque between the two members of the coupling tends Vto bend the slipper bearing so as to conform with the worn surface of the female member of the coupling. This action tends to produce breakage of the slipper bearing adjacent the central portion thereof andv since such slipper bearings usually embody a central boss which cooperates with the arcuate groove in preventing endwise displacement of the bearings, such breakage takes place at or near the juncture of the end portions of the slipper bearing with the boss portion'thereof.

Another type of stress is often encountered in the use of slipper bearings of the aforesaid type, such stress being caused by endwise shifting lor pounding of the drive spindle when the supporting bearings fail to accomplish their intended` purpose. In such endwise pounding of the drive spindle the 'fishtail' exerts a substantial pounding action upon the bearing pin of the slipper bearing assembly, tending to displace ther slipper bearings transversely of the arcuate rece`sses of the female member of the coupling. Since the boss portion of each slipper bearing isv normally spaced from the bottom' of athe groove inwhich the boss portion rides, the boss portions are, in such conventional slipper bearings, usually ineifective to absorb or 'resist-the' pounding forces exerted by the spindle in-its endwise shifting or pounding movement. As a result, this force must be resisted by the engagement of the end portions of the slipper bearing with the arcuate bearing surfaces of the female portion of the coupling. The location or spacing of such points of engagement may vary 'considerably but are in every instance spaced in opposite directions from the point of engagement of the spacing or bearing pin with the central boss. 'Hence the slipper bearings in such an instance act 'as beams supported at spaced points between which the bearing pin exerts a substantial pounding or loading force; This action often results in breakage of thev slipper bearing transversely thereof and substantially through the central opening of the boss.

In my copending application, Serial No. 412,737, filed September 29, 1941, I have disclosed and claimed slipper bearing structure which overcomes theforegoing diiculties, and .it is the object of the present invention to enable these difficulties to be avoided through the use of a simplified and more economical structure.

More particularly, it is an object of the invention to provide a three-piece slipperbearing in which each end section is interconnected with the boss of the bearing in a simple and effective manner which enables the bearing to transmit torque without the production of breaking stresses when worn couplings are encountered; and a related object is to so construct such a slipper bearing that the end sections may be readily removed and replaced as wear conditions require.

The features, hereinabove referred to, of interconnecting the parts of a slipper bearing for relative movement and rendering the end sections thereof removable are disclosed in the co-pending applications of 'Thomas J. Healy, Ser. Nos. 412,750 and 412,751, respectively, both flied September 29, 1941,` and the present invention relates to improvements over the inventions there disclosed.

Other and further objects of the present invention will be apparent from the following description and claims and will be understood by reference to the accompanying drawings which, by way of illustration, show a preferred embodiment and the principle thereof and what I now consider to be the best mode in which I have contemplatedapplying that principle. Other embodiments," of the invention embodying the same o! 4eouivalent principle may be used and structural versal coupling in partially disassembled condition, showing the manner in which one form of my novel slipper bearing structure is embodied in the coupling;

Fig. 3 is an enlarged cross-sectional view of 'the aforesaid universal coupling;

Fig. 4 is a longitudinal sectional view of the coupling t-aken on the line 4--4 on Fig. 3;

Fig. 5 is a plan view of one of the slipper bear- 'ings of Figs. 2, 3 and 4;

Fig. 6 is a front elevational view of the slipper bearing shown in Fig. 5;

Fig. 7 is a longitudinal sectional view taken on Fig. 8 is an end elevational view of the slipper bearing looking from the right in Fig. 6; and

Fig. 9 is a cross-sectional view of the slipper bearing taken along the line 9-9 of Fig, 5. One common use for slipper bearings of the character to which the present invention relates is found in the roll driving means for the continnous type of steel rolling mills and the like, such as the mill I0 fragmentally illustrated in Fig. l. The rolling mill I0 comprises a pair of opposed rolls having reduced end portions or pintles I2 extending through and journaled in bearings I3 carried by frame members as I4, and these pintles I2 are connected by universal couplings I 6 to the ends of drive spindles I5. The other ends of the spindles I5 are connected by universal couplings i1 to stub shafts I8 journaled in a frame member I9, and rotation is imparted to the stub shafts I 8 by the driving means which includes gearing 20 fixed to the lshafts I8. To afford adjustability of the rolls Il in accordance with the thickness of the material that is to be worked upon, the bearings as I3 are arranged to be vertically positioned at selected points in the frame members as I4, Thus the upper roll may be adjusted from the full-line position thereof in this view to accommodate a greater thickness of material, thus causing the upper spindle I5 to assume the position indicated by broken lines so that this spindle I5 is angularly disposed with respect to the associated pintle I2 The lower spindle I5 is sup--` tion of the upper spindle ,I5 is changed in the manner just described the bearing 2| is correspondingly rca-positioned and maintained in lan operative spindle supporting relationship. A

The universal couplings I6 and I1 which interconnect the spindles I5 with the rolls `and stub shafts I8 afford driving connections between these various rotatable members even though they are not longitudinally aligned with each other. As 4shown in detail in Fig. 2, each universal coupling comprises a female member 25 which is formed. on or secured to an end of a spindle as I5, Fig. 1, and a male member 26 which is provided on the adjacent end of an associated stub shaft as I8 or a pintle as I2. The male member 26 is in the form of a flat tongue that may be inserted into a bifurcation in the female member 25. Arcuate or cylindrical recesses 21, Figs. 2, 3 and 4, are formed in the branches of the bifurcation' inthe female member 25 and extend transversely to the free edges thereof, and deeper recesses 28 concentric with the recesses 21 are afforded in the member 25 between the free ends of the semi-cylindrical openings defined by the recesses 21.

A pair of slipper bearings 30 are respectively interposed between the tongue 26 and the arcuate recesses in the branches of the bifurcation in the female member 25, as shown in Fig. 3, each such slipper bearing 30 having flat and convex surfaces to conform respectively with the tongue 26 and the arcuate recesses vin the female member 25. The medial or boss portion 3| of each slipper bearing 30 is of greater thickness than the end sections 40 of the bearing, and these bosses 3l seat in the deeper recesses 28 while the end sections 40 are seatedl in the recesses 21. The bosses 3| of the slipper bearings 30 are interconnected and maintained in spaced relation with each other by a bearing pin 33 having reduced end asospoa portions Il which are received in socket openings as 35 in these bosses, the pin 33 passing through a suitable slot or other opening 31 in the tongue 26.

Where the shafts which are interconnected by a universal coupling I3 or I1 are not axially aligned, as is the case when the upper spindle is in the broken-line position thereof shown in' Fig. l, the slipper bearings 3|! are rocked back and forth in their recesses 21 and 23, Figs. 3 and 4, as the angular position of the tongue 26 with respect to the female member changes in the course of rotation of these parts;` However, 1ongitudinal movement of the slipper bearings is prevented by end faces 43 of the bosses 3| which are engaged by the shoulders M, Fig. 4, intermediate the receses 21 and 2,8 in the female member. Thus, the tongue 26 .may pivot about two axes, one being afforded by the bearing pin 33 and the other by the generally cylindrical or concentric surfaces of the recesses 21 and 28 in which theslipper bearings are seated. y

As is indicated in somewhat exaggerated fash- I I ion in Fig. 3, the rotative force or reaction exerted by the tongue 26 upon each slipper bearing and removable fastening means such as washers y53 and nuts 'll are provided on the ends of the .bolts Il to hold the three bearings parts against endwise separation; In the present instance two such bolts Il are employed, and the openings Il and 52 in which they are disposed are so arranged as to clear the central opening ofthe boss 3|, as will be evident in Fig. 9 of the drawings.

Lubricating grooves 5l and 51 are also provided on` the arcuate faces andA ilat faces respectively of the end sections Mi, and these grooves may be arranged in any preferred manner which provides adequate spacing between the grooves and the openings 52. As herein shown the grooves v 55 and l1 are connected by a bore 53.

The. connection of the end sections and the boss 3| is such that limited independent shifting movement of -the end sections Il is afforded when worn bearing surfaces 21 are encoun-tered, and', where the elongated securing means are rigid in character as are the bolts I0, this end is attained through the provision of resilient means such as sleeves SII mounted with- .25 30 is borne substantially entirely by only one of the end sections lil of each such'bearing .in in- I stances where the directions of rotation remain `substantially constant.vv These heavily stressed end sections 40 of the slipper bearings 30 and the cooperating portions of the female member 25 undergo a relatively rapid rate of wear, and

this wear is greatest on both of the opposed load transmitting surfaces adjacent to the ends of the slipper bearings. As the support for such end sections becomes wealened due to changes in the configuration of the mating surfaces there -is a tendency for these end sections to bend relative' to the bosses 3| of the slipper bearings, particularly when these bosses are firmly seated in the recesses 28 in the manner explained hereinafter.

As stated hereinabove, it is a purpose of the present invention to enable such bending movement and relative readjustment of the more heavily stresed end sections 4U to take place without un-v duly straining the slipper bearing assembly.

In accordance with the present invention the end sections l0 of each slipper bearing 30 'are detachably secured to the boss 3| thereof so as A to render each end section 40 capable of inde` pendent shifting movement relative tothe boss 3| in such a manner as to enable each such end section 40 to adjust itself independently tothe configuration of the cooperating arcuate bearing surface 21 in the female vmember 25 of the c oupling without placing an undue strain upon the slipper bearing assembly. This is attained by means which also functions to maintain the elements of the slipper bearing assembly inl anormal relationship which simplifies the coupling operation and facilitates mounting of the slipper bearing assembly in the coupling.

in the bores or openings 52 of the end sections 40 soas to be interposed between the bolts 5I and -the walls of the openings 52. The sleeves 50 may be made of any desired resilient material, such for example as soft rubber or suitable rubber substitutes, and when mounted as aforesaid.

these resilient sleeves 60 provide for movement fof the end sections in a. direction generally perpendicular to the axesl of the bolts .50.

Where the female bearing surface 21 has been worn unevenly it is found that each load transmitting end section is stressed so as to tend to :bend or shift the same relative to the boss 3|, to thereby seat the end sections firmly upon the worn bearing surfaces, and such relative pivotal movement is rendered possible in the present slipper bearing byso spacing the inner end faces 5| of the end sections from the adjacent faces 43 of the boss 3| that uneven compression of the resilient sleeves 80 may take place. Thus the end boss 3| so as toconform with worn bearing surfaces 21. y

While various means might be employed to efn fect .the desired spacing of the end sections lll from'the boss 3|, I prefer to employ resilient spacer blocks 82 made from a material such as soft rubber. Such spacer blocks 62 may be held inplace by the bolts 50, suitably positioned holes B3 being provided in the blocks 52, as shown in Fig. 7, for the passage therethrough of the bolts 50. Thus when an end section I0 is shifted f 1 with a pivotal or other uneven action, the reof the drawings the end sections 40 and the, boss y i independent movement of the end-sections lll relative to the boss 3| while tending'at alltir'nes to maintain the three bearing sections intheir normal relationship of Figs. 5, 6- and '1.

In attaining such a` relatlonshiprelong'ated se- 5 silie'nt sleeves 50 and `the resilient spacer block 62 may be compressed as required. When the bending or shifting stresses are relieved, however, thev three parts of the slipper bearing resume .I their normal relationship, due to the resiliency l Thus as shown in detail in Figs, 5 to 9 inclusive of the connections therebetween.

.'I'hus, in effect, a hinged or pivoted connectionY togive satisfactory service despite badly worn curing means suchA as rods or .bolts 50 are Passed j through axially aligned opening's'il and 52 formed conditions of the end sections of the bearing or o f the cooperating portions of the female memy ber 25. For example, assuming ythat the portions of the arcuate bearing surface ,21 of the female member 25 cooperating with the more heavily y respectively in the boss. 3 and end sections, 'I5-stressed end sections 4l of the slipper bearing sections 40 may, in effect, pivot relative to the 'ing movement of the spindle I5 the pounding action of .the spindle is 'exerted through the tongue 23 upon the bearing pin 33 transversely of the bearing pin, and this force is in turn exerted upon the boss portions by the bearing pin. In slipper bearings as heretofore constructed it has been the practice to so form the boss portions '3| as to space the arcuate outer surface thereof from Athe arcuate bottom surface of the groove 28, and hence the boss portions 3| have been ineffective under such circumstances to resist the force thus applied .through the bearing pin 33. Such forces have thereforebeen resisted by engagement of the end portions of the slipper bearings with the arcuate bearing surfaces 21. In most instances the engagement of the end por-tions of the slipper bearings with the bearing surfaces 21 occurs at points -spaced at substantial distances on opposite sides o'f the reduced ends '34'of the bearing pin and hence `the force exerted by the bearing pin 33 has been applied to theslipper bearing so as to stress the slipper bearing as a simple beam. This action often results invbreakage of the slipper bearing at substantially the mid point of the boss section or, in other words, through the pin receiving opening such as the opening 35.

With the slipper bearing of the present invention, this objectionable result is avoided by so constructing and arranging the slipper bearings and the resulting slipper bearing assembly that the slipper bearings resist these pounding forces without the aforesaid beam action in the slipper bearings. This end is attained through the formation of the boss section 3| of such thickness thatits arcuate surface 32 may seat against the bottom of the groove 28 when a pounding forceis exerted th'qreon due to endwise shifting of the spindle"|5. 'It will be noted in this connection that themas 34 of the pin sa are so formed, Figs. 3 and' 4, that the pin ends do not engage the bottom of the groove 28. In obtaining this seating or bottoming action of the bosses it will be observed that when the spindle shifts to the right in Fig. 4, it engages the bearing pin 33 so as to move the two boss portions 3| more rmly into seating engagement with the bottom of the groove 23.' Hence the two boss portions 3| ride along converging arcuate surfaces of the groove 28 and are forced toward each other and into firm engagement with the oppositely facing shoulders formed on the pin 33, and as a result the endwise movement of the spindle I5 is limited by a -wedging action of the twoliboss portions in the groove 28.

The construction and arrangement of slipper bearings and the slipper bearing assembly to afford such wedging action of the bosses 3| is described and claimed in my aforesaid copendling bearings.

Inasmuch as one of the end sections 40 may tend to wear more than the other end sections in a particular slipper bearing, it may become advantageous to replace a worn or otherwise damaged end section, When an end section Il of the present slipper bearing becomes excessively worn it may be removed from the coupling in which it is mounted without disassembllng the coupling, and to do this it is merely necessary to loosen and remove the adjacent securing nuts 5I to enable withdrawal of such an end section. In order to facilitate removal of the end sections I0 from the slipper bearing assembly, tapped openings 69 are provided in the outer ends of the end sections 40 so that a tool as 10, Fig. 5, having a threaded shank may be screwed into the tapped opening 69 of an end section I0, whereupon this end section may be conveniently withdrawn from the coupling.

From the foregoing description it will be apparent that I have provided an improved and simplified slipper bearing' structure which is so arranged that whenV the more heavily stressed end section of a slipper bearing is engaged by the male tongue of the universal coupling in the course of transmitting torque between the male and female members, such end section may yield unitil it receives the support o f the cooperating female bearing surface without placing any undue strain upon the bearing structure as a whole. Moreover, the present slipper bearing prevents breakage of the slipper bearings due to endwise pounding of the spindle, and worn end sections in the slipper bearings may be readily and easily replaced without uncoupl/ing the connected rotative members. 'I'hese advantages are attained in the present instance by making the slipper bearings of three-piece construction which preserves; the `general fom of the conventional one-piece slipper bearings heretofore employed in universal couplings. Therefore, slipper bearings constructed in accordance with my invention may be employed in existing universal couplings without necessitating any redesigning or reshaping of the male and female members thereof. l

Since the rubber sleeves may beV compressed unevenly on any side of the associated connecting bolts, the axis of the pivotal Areadjusting movement of an end section is indeterminate, and hence an end section may be brought into maximum bearing contact with the opposed female bearing surface of the coupling. Such readjusting movement of an end section inthe present slipper bearing is accomplished without producing undesired and objectionable stresses in the central boss or in the end section,A the shifting movement serving merely to compress the resilient elements in the amount required. It

appneation, serial No. 412,737, and it is to be will be observed, of course, that the component parts of the present slipper bearing are simple in character so as to enable the slipper bearings to be economically produced, and yet, these simple and economical elements cooperate to produce exceptional performance characteristics in the slipper bearings.

Thus, while I have illustrated and described a selected embodiment of my invention, it is to be understood that this embodiment is capable of variation and modification and I therefore do not wish to be limited to the precise details set forth but desire to avail myself of such changes and alterationsv as fall within the purview of the following claims.

I claim:

1. In a universal coupling including a bifurcated female member and a male member com` prising a at tongue adapted to be received in such bifurcation and which tongue has an opening therein for the reception of abearing pin and wherein the branches of the bifurcation' have opposed arcuate recesses therein that exand end portions having convex faces to conformv with'other portions of said recesses andalso having fiat faces respectively disposed toward opposed flat faces of said tongue, and va bearing pin extended through the opening in said 1 tongue and into the medial parts of said bearings, said pin having oppositely facing shoulders thereon acting to space said boss portions apart so that as an incident to the application of a force to said pin transversely thereof and generally toward said groove'said boss portions are bottomed in said arcuategroove and are wedged tend transversely and to the free edges thereof l and which recesses are deepened at medial parts thereof 'to form an arcuate groove, the combination of a pair of slipper bearings respectively disposed in the arcuate recesses and including central boss portions located within said groove y and separately` formed end portions having cona bearing pin extended through the opening inl said tongue and into the medial parts of said bearings, and resilient means and'at least one cooperating connecting bolt operable to secure said boss and end sections together for limited relative movement and operable to urge said end sections toward,a predetermined relation with respect to said boss. Y I

2. In a `universal coupling including al bifurcated female member and a male membercomprising a fiat tongue adapted to be received in such bifurcation and which tongue has an opening therein for the reception of a `bearing pin and wherein the branches of the bifurcation have opposed arcuate recesses therein that lextend again-st said rsliouldei'srto thereby limit and resist relative elidwise approaching movement 0f said Vmale and female members vofthe coupling,

and means` including resilient elements connecting said end portions to said boss portion for.

`coupling kand permit relative pivotal movement of said end sections to conform with worn co-v.

operating lbearing surfaces of the female member of thecoupling, the resilient elements of said.

connecting means. being operable to urge said vn'd sections to normal positions facilitating coupling of the nialeland femalemembers.

, 4. Illl slipper bearing of the character described comprising a. boss, atleastvone end section disposed at one -side 'of said boss, .resilient means ,between'said' boss'and said endsection operable normally to'maintain a predetermined spaced relation therebetween,l and connecting means norl mally holding saidboss and said end section together` against opposite sides of said resilient means,- said connecting means being constructed and arranged to afford limited shifting movement between said end section and said boss. r5. Aslipper bearing of the character described comprising a boss, two .separate end sections retransversely and `to the free edges thereof and, i

which recesses are deepened atmedial parts thereof to form an arcuate groove, the combina-1 .central boss portions located within said` groove l spectively disposed at ,opposite sides of said boss.

said bossrand said end having axially. aligned openings formed therethrough, bolts extending throughv said openings and having releasablc means thereon operable to hold said end secand separately formed end portions havingconvex faces to conform with and bear against other portions of said arcuate recesses Vand also havving nat faces respectively disposed toward'and Ibear against opposed flat faces of said tongue.,

a bearing pin extended through the opening in said tongue and into the medial parts fof saidbearings, and connecting means securing said end sections and said boss together, said conn .necting means having resilient means associated.`

therewith whereby` said boss4 and endv sections areenabled to move relative to each other and are constantly` urged toward a predetermined y Inormal relationship.

3. In a -universal coupling including. a bifurcated female member and a male member comprising a fiat tongue adapted to be received'in such bifurcation and which tongue has an openj ing therein for the reception of -a bearing pin'- .'tions thereon, resilient means Awithin the openings in said end sections voperable to locate said end sections inl predetermined positions laterally l with respect to vsaid-bolts. and resilient means acting-between 'said' boss and said end sections andv operable yieldingly` toresist approaching movement thereofgandl to maintain a predeter- 1 mined spaced relation therebetween. f l 61.A slipper bearing Yof the, character de- 'v Jscribedcomprising afbospsportion,- two separate end sectionsidisposed at yopp'ositersides of said H boss and 'extending therefrom, resilient cushion- 4 l ing blocks ,disposed-, betweenfsaid end jsections :and said boss# portion,- means including at least l, one bolt extendingthrougheach'end section and I the Aadjacent ycushioning '--bloek and securing-` ,v thenito said boss, and resilientsleeves vsurroilr'id-4 ing saidY bolts within,` said end, sections to thereby `enable lrelative shiftingofsaid'e'nd sections rei'a- 1 vintive tolsaid boss. A 7. A slipper; bearing of the ,character described -comprising a boss portion, at least one end section disposed` atone side off said boss and extending 'I therefrom, and resilient means forming a conbination of a pair of slipper bearings respectively y disposed in the arcuate recesses and including central boss portions located withinsaid groove nectionfbetween said boss and-said end ,section4 whereby saidend section f is enabled to shift relative to said boss -while being constantly urged toward a normal relation tothe boss.

a. supper bearing of the cummidescribed comprising s. boss, two end sections disposed at opposite sides of said boss. said boss and said end sections having aligned openings therethrough, resilient sleeves disposed within the openings in said end sections, and vmeans including bolts extending through said sleeves and the-aligned openings in seid boss and opesabie to secure seid boss end end sections together.,

@.Aslipperbearingessetorthincleim, in which end sections and said bess ere spaeee'i 'apart by means a'ordine eective clearenee therebetween Ite permit relative pivotal movement. l

le. sin eind section adopted to tom en eiement oi'- e multiseetion slipper @awning for ilse in e universel coupling end eempx'imnz e stehe stentieiiv feetensular he@ havin@ side end and edges and oppositeiy disposed bearing faces, one of said bearing faces being substantially at and extended to seid side and end edges and the constitutes the inner eind of the end section when in use in e sampling, seid openings being adapted to receive meens for seeming seid element to, sind meeting `it with respeet te., ether of the see tions of the sensing, and resilient sleeves posi tiene@ in seid openings.

my C. MVM. 

